CN109568726A - Large dosage of needleless injector - Google Patents
Large dosage of needleless injector Download PDFInfo
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- CN109568726A CN109568726A CN201910089729.3A CN201910089729A CN109568726A CN 109568726 A CN109568726 A CN 109568726A CN 201910089729 A CN201910089729 A CN 201910089729A CN 109568726 A CN109568726 A CN 109568726A
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- hammer body
- bore
- driving wheel
- needleless injector
- gun
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- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/178—Syringes
- A61M5/30—Syringes for injection by jet action, without needle, e.g. for use with replaceable ampoules or carpules
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/178—Syringes
- A61M5/31—Details
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/178—Syringes
- A61M5/31—Details
- A61M5/315—Pistons; Piston-rods; Guiding, blocking or restricting the movement of the rod or piston; Appliances on the rod for facilitating dosing ; Dosing mechanisms
- A61M5/31525—Dosing
- A61M5/31531—Microsyringes, e.g. having piston bore diameter close or equal to needle shaft diameter
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/178—Syringes
- A61M5/31—Details
- A61M5/315—Pistons; Piston-rods; Guiding, blocking or restricting the movement of the rod or piston; Appliances on the rod for facilitating dosing ; Dosing mechanisms
- A61M5/31533—Dosing mechanisms, i.e. setting a dose
- A61M5/31545—Setting modes for dosing
- A61M5/31548—Mechanically operated dose setting member
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M5/00—Devices for bringing media into the body in a subcutaneous, intra-vascular or intramuscular way; Accessories therefor, e.g. filling or cleaning devices, arm-rests
- A61M5/178—Syringes
- A61M5/31—Details
- A61M2005/3125—Details specific display means, e.g. to indicate dose setting
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M2205/00—General characteristics of the apparatus
- A61M2205/18—General characteristics of the apparatus with alarm
-
- A—HUMAN NECESSITIES
- A61—MEDICAL OR VETERINARY SCIENCE; HYGIENE
- A61M—DEVICES FOR INTRODUCING MEDIA INTO, OR ONTO, THE BODY; DEVICES FOR TRANSDUCING BODY MEDIA OR FOR TAKING MEDIA FROM THE BODY; DEVICES FOR PRODUCING OR ENDING SLEEP OR STUPOR
- A61M2205/00—General characteristics of the apparatus
- A61M2205/58—Means for facilitating use, e.g. by people with impaired vision
- A61M2205/586—Ergonomic details therefor, e.g. specific ergonomics for left or right-handed users
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- Health & Medical Sciences (AREA)
- Vascular Medicine (AREA)
- Engineering & Computer Science (AREA)
- Anesthesiology (AREA)
- Biomedical Technology (AREA)
- Heart & Thoracic Surgery (AREA)
- Hematology (AREA)
- Life Sciences & Earth Sciences (AREA)
- Animal Behavior & Ethology (AREA)
- General Health & Medical Sciences (AREA)
- Public Health (AREA)
- Veterinary Medicine (AREA)
- Infusion, Injection, And Reservoir Apparatuses (AREA)
Abstract
The invention discloses a kind of large dosage of needleless injectors, are pulled component, trigger component and terminal injecting assembly by gun body, striker assembly, circulation and are constituted;Gun body is made of gun rack and gun barrel, for providing support and running space for other component;Striker assembly is made of hammer body, elastic string and push type alarm, provides impact force by axial movement of the hammer body in gun barrel for terminal injecting assembly;Circulation pulls component and is located in driving chamber, for driving striker assembly to reach the state of loading, and controls hammer body excitation;Trigger component is for driving circulation to pull assembly operating;Terminal injecting assembly is made of medicine-storing tube, piston and push rod, is provided power by striker assembly and is realized Needleless injection.This large dosage needleless injector is scientific and reasonable for structure, and convenient for holding, it is convenient to operate, and can be rapidly performed by repeatedly continuous injection and realize that strong dose object is injected, and has expanded needleless injector in the application range in clinical injection field.
Description
The present invention is the dividing application No. is 201610967779.3 application for a patent for invention submitted on November 05th, 2016
Case application.
Technical field
The present invention relates to a kind of medical instrument more particularly to one kind can continuous several times injection and realize drug bolus infusion
Needleless injector.
Background technique
Needleless injection is to make liquid medicine in such a way that ultra-fine, high speed, straight line spray high-pressure jet by needleless injector
It is directly entered body tissue, is punctured without syringe needle and reaches a kind of new technique of drug injection purpose.Needleless injection and previous biography
System injection technique is compared, and is punctured body without syringe needle, is reduced the pain and fear of drug injection, reduce bacterium infection
Risk, avoid the generation that syringe needle scratched and fractureed etc. accidents, improve the convenience and safety of drug injection operation;Together
When, when due to using Needleless injection, drug is that disperse shape enters subcutaneously, is uniformly dispersed, it is easy quickly to be absorbed by body tissue, and
It is not easy to plug small lymphatic vessel, long-time service does not subcutaneously play scleroma, hence improves drug injection effect, improves drug and rises
Imitate speed.Therefore needleless injection techniques are " revolution of medical injection technology ", are had in future clinical medical treatment extensive
Application prospect.
Needleless injector is the core instrument for implementing Needleless injection, and current needleless injector is although compact-sized, volume
It is small and exquisite, there is certain advantage in operation convenience, but undeniably, there are certain drawbacks in clinical application.Than
Such as:
(1) when needleless injector works, high-pressure jet can just be formed by needing to provide sufficiently large pressure for medical fluid, so that often
It requires to carry out needleless injector necessary pre- preceding operation before secondary injection, reaches " energy accumulating state ", some needleless note
Operation before emitter needs hand-held progress pre-, cumbersome, time-consuming and laborious, also some needleless injectors carry out pre- by specific purpose tool
Preceding operation, use is inflexible, convenient, can not independently use.
(2) based on existing needleless injector reach " energy accumulating state " it is pre- before operation it is all not convenient enough, can not efficiently into
Line Continuity injection, and the dosage of needleless injector single injection is lesser, so that injection dosage becomes existing Needleless injection
The short slab of device, can typically be only used to the clinical injection of the small dose drugs such as insulin, and be not used to the slightly larger antibiotic of dosage,
The clinical injection of the drugs such as interferon, existing needleless injector are limited by above-mentioned key factor and can not be wide in clinical injection field
General application.
(3) existing needleless injector structure is compact, but component is more, needs reasonably to design the technique for adding precision
Realize mechanical performance, so that its manufacturing cost is high, manufacture difficulty is big, usually imported product, and acquisition cost is high, consuming public
It is difficult to bear, this is also to limit the commonly used key factor of needleless injector.
Summary of the invention
The purpose of the present invention is to provide a kind of scientific structures, and it is convenient to operate, and fast can continuously inject and realize large dosage
Large dosage of needleless injector of drug injection, it is intended to solve that the operation of existing needleless injector is not convenient enough, is limited by injection dosage
The deficiencies of use scope is small, cost of manufacture is high.
To realize the above-mentioned technical purpose, the present invention adopts the following technical scheme:
A kind of large dosage needleless injector comprising:
Gun body is made of the gun rack and gun barrel being fixedly connected;Cylindrical bore is equipped in gun barrel, the two sides of bore are each
The front end of the side chamber communicated therewith equipped with one, gun barrel is fixed with thread head through neck tube, and neck tube side wall is provided with observation window with a scale,
Neck tube inner cavity, thread head inner cavity and bore three are coaxial, and neck tube internal diameter is small compared with bore;The tail end of gun rack is equipped with and extends downwardly
Handle, the interior downside being equipped with positioned at bore of gun rack and the driving chamber communicated with bore;
Striker assembly is made of hammer body, elastic string and push type alarm;Hammer body is located in bore and only can axially move
Dynamic, the downside of hammer body is equipped with towing mechanism;Elastic string is equipped with two, and it is intracavitary to be located at two sides, and elastic string one end and hammer body connect
It connects, the other end is then connect with gun body;Push type alarm includes the trigger switch of control its work, and trigger switch is placed in rifle
On rear side of thorax;When trigger switch is supported in the rear end of hammer body, push type alarm issues warning, and two elastic strings are in tensional state,
Striker assembly is in state of loading at this time;It will quickly move forward after hammer body excitation and impact force is generated to front side member;
Circulation pulls component comprising a transmission belt, the driven wheel and driving wheel that transmission belt is arranged by front and back support and position
In in driving chamber, and the upside of transmission belt is parallel with hammer body axis;Driving wheel and reversed back-stop mechanism cooperation and only can be positive
Rotation, transmit the upside of transmission belt can only from the front to the back;It is installed in transmission belt there are two dragging fin block separately, works as dragging
When fin block moves from the front to the back with transmission belt, which will cooperate with towing mechanism and hammer body is driven to move backward, when this
When dragging fin block is moved to right above driving wheel, striker assembly reaches the state of loading, when the dragging fin block is downward at driving wheel
When mobile, pulling fin block will be detached from towing mechanism and excite hammer body;
Trigger component comprising trigger and one-way driving mechanism, trigger are located at the front side of handle and along main shaft swings,
Trigger drives lower end that can reset forward automatically by resetting-mechanism;One-way driving mechanism is set between trigger and driving wheel, trigger
Driving wheel will be driven to rotate forward by one-way driving mechanism when swinging backward;
Terminal injecting assembly comprising be slidingly sealed the medicine-storing tube and piston of cooperation, medicine-storing tube front end is equipped with injection orifice, storage
The rear end of cylindrantherae is equipped with the thread bush cooperated with thread head, and push rod is connected on rear side of piston, and push rod is equipped with station location marker;Work as spiral shell
After line set is combined with thread head, putting back-end passes through thread head and neck tube and enters in bore and can be hit by hammer body, passes through rotation
Turn thread bush and the length that push rod protrudes into bore is adjusted, can determine whether that push rod protrudes into station location marker by the scale on observation window
Length value in bore, i.e., clear injection dosage.
The working principle of this large dosage needleless injector are as follows:
The handle of hand-held gun body, using finger it is reciprocal pull trigger, driving wheel is in one-way driving mechanism and reversed check
It is intermittent under the double action of mechanism to rotate forward, when pull fin block with transmission belt above driven wheel with driving wheel by preceding
When moving backward, pulling fin block will gradually be supported with towing mechanism, and hammer body is driven to overcome the pulling force of two elastic strings and move backward,
When the dragging fin block is moved to right above driving wheel, hammer body is located at bore rear portion, and push type alarm will be issued and be warned, operation
Person can specify striker assembly and have reached the state of loading;It combines thread bush with thread head, makes the terminal injection group for being stored with medical fluid
Part is fixed on the front end of gun body, and push rod tail end is watched by the station location marker on the scale and push rod on observation window and protrudes into bore
Interior length value, and the length that push rod protrudes into bore is adjusted by rotation thread bush, that is, realize the adjusting of injection dosage,
Thus the button-up operations before injection has been completed;Surface sterilization processing is carried out to human injection position, by the note of medicine-storing tube
Perforation end presses against injection site, continues to pull trigger, and the dragging fin block with towing mechanism cooperation will be along driving wheel to the back lower place
It moves and is detached from towing mechanism, it, will be by two elastic strings after the hammer body in the state of loading loses the resistance for pulling the offer of fin block
Pulling force driving and fast forward movement, hammer body will hit push rod tail end and move forward piston moment, that is, complete primary micro-
Amount injection;By the injection orifice of medicine-storing tube support it is continuous press against injection site, continue to pull trigger, another dragging fin block will with pull
Mechanism cooperation makes striker assembly repeat aforementioned activities, and thus one, large dosage of Needleless injection can be made by continuously pulling trigger
Device is rapidly performed by multiple micro-injection, until putting back-end is ejected bore completely, hammer body can not continue to hit push rod at this time
Tail end completes the drug injection of preset dose.
Furthermore, it is axially extending that one is provided in this large dosage needleless injector, on the upper side wall of the bore
Guide groove, and the upside of hammer body is equipped with the guiding rib being in sliding fit with the sliding chute, and cooperates through guide groove and guiding rib, makes hammer body in rifle
It is only axially movable in thorax, without relatively rotating.
Furthermore, in this large dosage needleless injector, the gun rack is made of composite material, the rifle
Pipe, neck tube and thread head are integrally formed and are made of metal material, and the downside of gun barrel handles through aperture and makes bore and downside
Driving chamber connection.
Furthermore, in this large dosage needleless injector, the hammer body front end is respectively provided with one with push rod tail end and hits
Portion is hit, the shock portion is made of high-intensitive, high rigidity material.
Furthermore, in this large dosage needleless injector, the push type alarm uses split-type design, i.e.,
The push type alarm is made of the trigger switch and alarm body being connected through conducting wire, and trigger switch is fixed on bore
Rear side, and alarm body is placed in inside the handle of gun body.
Furthermore, in this large dosage needleless injector, the reversed back-stop mechanism is made of ratchet and pawl;
Ratchet is located at the side of driving wheel, and the two is coaxial and relatively fixed, and ratchet and driving wheel are using integrated design;Pawl then by with rifle
The relatively-stationary shaft of body provides support;Ratchet can only rotate forward under the cooperation of pawl, and make relatively-stationary with ratchet
Driving wheel also only can positive direction rotation.
Furthermore, in this large dosage needleless injector, the push type alarm is connected with one through conducting wire
Two trigger switch, the second trigger switch are installed in the front side of bore, after the front end of hammer body and the front end face of bore are supported, second
Trigger switch is pressed by hammer body front end and push type alarm is promoted to issue warning, to prompt operator to have been completed default agent
The drug injection of amount.
Furthermore, it is relatively fixed with gun rack that one is equipped in this large dosage needleless injector, in the driving chamber
Leading truck, the leading truck is between driving wheel and driven wheel, and upper surface is parallel with transmission belt upper inside walls respectively, tight
Patch.
Furthermore, in this large dosage needleless injector, the transmission belt use synchromesh gear belt, driving wheel with
Follower uses corresponding gear;
Or the transmission belt uses chain, driving wheel uses corresponding sprocket wheel with follower;
Or the transmission belt uses V-belt, driving wheel uses corresponding groove profile belt wheel with follower.
Furthermore, in this large dosage needleless injector, the dragging fin block is by integrally formed fin seat and fin
Portion is constituted, and the two is vertical, and fin is located at the side of fin seat, and fin seat is fixed in transmission belt and can provide support for fin.
Furthermore, in this large dosage needleless injector, the driving wheel is big compared with driven wheel diameter, makes transmission belt
Track tend to triangle, it is pre-small post-large.
Compared with prior art, the present invention it has the following beneficial effects: which employs the designs of the structure of reasonable science, no
Only convenient for holding, it is relatively beneficial to hand and has an effect, so that large dosage of needleless injector reaches " energy accumulating state " i.e. " state of loading "
Work is especially easily laborsaving, not only carries out without extra means, completes with can be operated with one hand, flexibly and easily;Due to big
The operation that dosage needleless injector reaches " energy accumulating state " is very convenient, in addition for providing power for realization " state of loading "
Circulation pulls component and is recycled work, so that this large dosage needleless injector can be rapidly performed by repeatedly continuous injection, Ji Kefang
Just preset large dosage of drug injection quickly is realized by the way that multiple micro-injection is cumulative, overcome previous needleless injector only
It can be used for the deficiency of drug dose injection, expanded needleless injector in the application range in clinical injection field.Its structure is closed
Reason is implemented to be easy, and cost of manufacture is cheap, is beneficial to the promotion and popularization of large dosage of needleless injector.
Detailed description of the invention
Fig. 1 is one of this large dosage needleless injector appearance diagram.
Fig. 2 is the two of this large dosage needleless injector appearance diagram.
Fig. 3 is this large dosage needleless injector schematic diagram of internal structure.
Fig. 4 is the decomposition diagram of large dosage of needleless injector.
Fig. 5 is the structural schematic diagram of gun rack.
Fig. 6 is the structural schematic diagram of gun barrel.
Fig. 7 is the structural schematic diagram of hammer body and elastic string.
Fig. 8 is one of hammer body and the cooperation schematic diagram of gun barrel.
Fig. 9 is the two of the cooperation schematic diagram of hammer body and gun barrel.
Figure 10 is that circulation pulls one of component and the structural schematic diagram of trigger component.
Figure 11 is the second structural representation that circulation pulls component and trigger component.
Figure 12 is one of the cooperation schematic diagram that hammer body and circulation pull component.
Figure 13 is the two of the cooperation schematic diagram of hammer body and circulation dragging component.
Figure 14 is the combination diagram of terminal injecting assembly and gun body.
Figure 15 is terminal injecting assembly when drug is specified maximum reserves and the mated condition figure of hammer body.
Figure 16 is drug injection in terminal injecting assembly when finishing and the mated condition figure of hammer body.
Figure 17 is the mated condition figure that injection dosage is set as terminal injecting assembly and hammer body when maximum rating.
Figure 18 is that this large dosage needleless injector adds the structural schematic diagram after the second trigger switch.
Figure 19 is the structural schematic diagram after hammer body is further improved.
Figure 20 is that trigger component and driving wheel cooperate schematic diagram.
Figure 21 is one of trigger component and driving wheel decomposition diagram.
Figure 22 is the two of trigger component and driving wheel decomposition diagram.
Figure 23 is the structural schematic diagram that trigger and main shaft are driven through ratchet mechanism.
Figure 24 is the structural schematic diagram after terminal injecting assembly is further improved.
In figure, 1, medicine-storing tube, 2, thread bush, 3, station location marker, 4, observation window, 5, gun barrel, 6, handle, 7, trigger, 8, rifle
Frame, 9, neck tube, 10, scale, 11, thread head, 12, injection orifice, 13, driving chamber, 14, bore, 15, side chamber, 16, hammer body, 17, bullet
Property rope, 18, pull fin block, 19, driving wheel, 20, trigger switch, 21, one-way driving mechanism, 22, push type alarm, 23, main
Axis, 24, transmission belt, 25, driven wheel, 26, axle bed, 27, push rod, 28, resetting-mechanism, 29, guiding rib, 30, towing mechanism, 31,
Guide groove, 32, leading truck, 33, pawl, 34, fin, 35, fin seat, 36, ratchet, 37, piston, 38, guiding bolt, 39, shock portion,
40, the second trigger switch, 41, spring, 42, key seat, 43, ejector pin, 44, central gear, 45, planet carrier, 46, planetary gear, 47, interior
Ring gear, 48, ratchet mechanism, 49, ratchet, 50, pawl, 51, dose scale.
Specific embodiment
Referring to shown in Fig. 1-4, a kind of large dosage of needleless injector disclosed in this invention, mainly by gun body, percussion hammer group
Part, circulation pull component, trigger component and the most of composition of terminal injecting assembly five.
Wherein, referring to shown in Fig. 1-6 and 9, the gun body is made of the gun rack 8 being fixedly connected with gun barrel 5;In gun barrel 5
Equipped with cylindrical bore 14, the two sides of bore 14 are respectively provided with a side chamber 15 communicated therewith, and the front end of gun barrel 5 is solid through neck tube 9
Surely there is thread head 11,9 side wall of neck tube is provided with a scale 10 observation window 4,9 inner cavity of neck tube, 11 inner cavity of thread head and bore 14 3
Person is coaxial, and 9 internal diameter of neck tube is small compared with bore 14;The tail end of gun rack 8 is equipped with the handle 6 extended downwardly, is equipped in gun rack 8 and is located at rifle
The downside of thorax 14 and the driving chamber 13 communicated with bore 14;Skeleton of the gun body as this large dosage needleless injector, be used for for
Other component provides work running space and necessary support.
Wherein, referring to Fig. 3, shown in 4,7,8,9, the striker assembly by hammer body 16, elastic string 17 and push type alarm
Device 22 is constituted;Hammer body 16 is located in bore 14 and is only axially movable, since 9 internal diameter of neck tube is small compared with bore 14,16 front end of hammer body
It will not enter in neck tube 9, the downside of hammer body 16 is equipped with towing mechanism 30;Elastic string 17 is equipped with two, is located at two side chambers 15
Interior, 17 one end of elastic string is connect with hammer body 16, and the other end is then connect with gun body;Push type alarm 22 controls its work including one
Trigger switch 20, trigger switch 20 is placed in the rear side of bore 14;When trigger switch 20 is supported in the rear end of hammer body 16, push type
Alarm 22 will be issued and be warned, and two elastic strings 17 are in tensional state, and striker assembly is in state of loading at this time;Hammer body 16 excites
After will quickly move forward and to front side member generate impact force;Striker assembly keeps large dosage of needleless injector real for absorbing external force
Existing " energy accumulating state ", required pressure when to provide injection for terminal injecting assembly.Due to large dosage of needleless injector work
When making, hammer body 16, which should be, generates biggish impact force to front side member, therefore hammer body 16 should be made of the biggish material of density, with
Kinetic energy after improving its excitation;Two elastic strings 17 are used to provide the power of Forward for hammer body 16, therefore it is with good draftability
Can, Ying Caiyong high resiliency top-quality rubber is made.Push type alarm 22 is existing apparatus, is typically provided with a trigger switch 20,
When trigger switch 20 is supported by external pressure, push type alarm 22 will be triggered, the warning form of push type alarm 22
It can be sound warning or light warning or acousto-optic warning, be intended to that the clear striker assembly of user is made to have reached the shape that loads at this time
State, subsequent operation can be injected, and to operate with caution, injection be avoided to make mistakes;Two elastic strings 17 are located in two side chambers 15, purport
Bore 14 is set to be made for the movable exclusive space of hammer body 16, and two elastic strings 17 are flexible also mainly complete in respective space
At, thus can avoid elastic string 17 to hammer body 16 move forward when bring obstruction.
Wherein, referring to Fig. 3,4 and 10-13 shown in, it includes a transmission belt 24 that the circulation, which pulls component, transmission belt 24 by
The driven wheel 25 and driving wheel 19 of front and back setting support and are located in driving chamber 13, and the upside of transmission belt 24 and 16 axis of hammer body
In parallel;Driving wheel 19 cooperates with a reversed back-stop mechanism and can only rotate forward, and makes the upside of transmission belt 24 only can be from the front to the back
It transmits and the transmission of irreversible row;It is installed in transmission belt 24 there are two dragging fin block 18 separately, when dragging fin block 18 is with transmission
When band 24 moves from the front to the back, which will cooperate with towing mechanism 30 and hammer body 16 is driven to move backward, when this is dragged
When dragging fin block 18 and being moved to 19 surface of driving wheel, striker assembly reaches the state of loading, when the dragging fin block 18 is in driving wheel 19
When place moves down, pulling fin block 18 will be detached from towing mechanism 30 and excite hammer body 16.It can be seen that circulation pulls component
By the circle transmission of 24 single direction of transmission belt, the cooperation for pulling fin block 18 and towing mechanism 30 by two can be circuited sequentially,
And drag hammer body 16 and be moved rearwardly into the state of loading, then make to pull fin block 18 again and towing mechanism 30 is detached from, swashs hammer body 16
One circle of hair, i.e. transmission belt 24 operation, the completion of striker assembly successively is loaded twice to be acted with excitation.On the one hand circulation pulls component
The power needed for state that loads is realized for providing for striker assembly, and on the other hand the control then as striker assembly excitation is opened
It closes.It is pulled in component operation in circulation, the power that transmission belt 24 is run is provided by driving wheel 19, and 24 upside of transmission belt is transmitted backward
When driving wheel 19 rotation be reversely defined as forward direction, when driving wheel 19 is driven by external force and rotated forward, reversed back-stop mechanism is not
Driving wheel 19 can be prevented to rotate;And after the external force for driving driving wheel 19 to rotate forward disappears, two elastic strings 17 are as in stretching
State, then the pulling force of elastic string 17 will indirectly act on the trend for making driving wheel 19 generate reversion to driving wheel 19, at this time reversely
Back-stop mechanism will prevent driving wheel 19 from reversely rotating, and circulation is made to pull component locking and maintain standing state.
Wherein, referring to Fig. 3,4 and 10-13 shown in, the trigger component includes trigger 7 and one-way driving mechanism 21, is pulled
Machine 7, which is located at the front side of handle 6 and can be fixed on intracorporal two axle bed 26 of rifle along 23 swing of main shaft, the both ends of main shaft 23, to be limited
Fixed, trigger 7 drives lower end that can reset forward automatically by resetting-mechanism 28;One-way driving mechanism 21 is set to trigger 7 and driving wheel
Between 19, driving wheel 19 will be driven to rotate forward by one-way driving mechanism 21 when trigger 7 is swung backward, conversely, working as trigger 7 certainly
When moving reset and swinging forward, driving wheel 19 will not be indirectly driven.It can be seen that trigger component passes through the past physical pendulum of trigger 7
It is dynamic, through one-way driving mechanism 21 drive driving wheel 19 carry out it is intermittent rotate forward, and then realize 24 single direction of transmission belt
Circle transmission.Trigger 7 above-mentioned drives lower end that can reset forward automatically by resetting-mechanism 28, and the resetting-mechanism 28 is more often
See, is the prior art, for example use V-arrangement elastic slice, as shown in Figure 10,12, one end of V-arrangement elastic slice is fixedly connected with trigger 7, and another
One end is then fixed with gun body, and the technology mesh that 7 lower end of trigger can reset forward automatically can be realized by the elasticity of itself for V-arrangement elastic slice
's.
Wherein, referring to shown in Fig. 1,3,14, the terminal injecting assembly includes being slidingly sealed the medicine-storing tube 1 of cooperation and living
Plug 37,1 front end of medicine-storing tube are equipped with injection orifice 12, and the rear end of medicine-storing tube 1 is equipped with the thread bush 2 cooperated with thread head 11, medicine-storing tube 1
The cavity of 37 front side of inner piston is connected with push rod 27, push rod 27 is equipped with station location marker 3 for prestoring medical fluid on rear side of piston 37;
After thread bush 2 is combined with thread head 11,27 rear end of push rod passes through thread head 11 and neck tube 9 and enters in bore 14 and can be hammered into shape
16 front end impact of body is adjusted the length that push rod 27 protrudes into bore 14 by rotating thread bush 2, passes through observation window 4 and position
Mark 3 can determine whether the length value that push rod 27 protrudes into bore 14, i.e., clear injection dosage;When hammer body 16 is by one or many
27 rear end of push rod is hit, and after so that 27 rear end of push rod is exited bore 14 completely, that is, complete the drug injection of preset dose.
Referring to described in Fig. 1,3,4,12,13,14, the working principle of above-mentioned large dosage needleless injector are as follows: hand-held gun body
Handle 6, using finger it is reciprocal pull trigger 7, dual work of the driving wheel 19 in one-way driving mechanism 21 and reversed back-stop mechanism
It is rotated forward with lower and intermittent, when pulling fin block 18 with transmission belt 24 in the top of driven wheel 25 and driving wheel 19 and by preceding
When moving backward, pulling fin block 18 gradually will support cooperation with towing mechanism 30, and hammer body 16 is driven to overcome the drawing of two elastic strings 17
Power and move backward, when the dragging fin block 18 is moved to 19 surface of driving wheel, hammer body 16 has been located in 14 rear portion of bore, pressing
Formula alarm 22 will be issued and be warned, and operator can specify striker assembly and have reached the state of loading;By thread bush 2 and 11 groups of thread head
It closes, combines the terminal injecting assembly for being pre-stored with medical fluid with gun body, pass through the position on the scale 10 and push rod 27 on observation window 4
Mark 3 is set to judge that 27 tail end of push rod protrudes into the length in bore 14, and rifle is protruded into adjust push rod 27 by rotation thread bush 2
Length value in thorax 14 realizes the adjusting of injection dosage, the button-up operations before injection has thus been completed;To human body
Injection site carries out surface sterilization processing, and 12 end of injection orifice of medicine-storing tube 1 is pressed against injection site, continues to pull trigger 7, with
The dragging fin block 18 that towing mechanism 30 cooperates will be moved to the back lower place along driving wheel 19 and will be detached from towing mechanism 30, in loading
After the hammer body 16 of state loses the resistance for pulling the offer of fin block 18, it will be driven by the pulling force of two elastic strings 17 and quickly be transported forward
Dynamic, 16 front end of hammer body will hit the rear end of push rod 27 and move forward 37 moment of piston, that is, complete a micro-injection;It will storage
The injection orifice 12 of cylindrantherae 1, which supports to continue, presses against injection site, continues to pull trigger 7, another dragging fin block 18 will be with towing mechanism
30 cooperations make striker assembly repeat aforementioned activities, and thus one, large dosage of Needleless injection can be made by continuously pulling trigger 7
Device is rapidly performed by multiple micro-injection, until 27 rear end of push rod is ejected bore 14 completely, hammer body 16 can not continue to hit at this time
27 tail end of push rod is hit, that is, completes the drug injection of preset dose.
It is compared with previous needleless injector, structure design of the present invention is more scientific and reasonable, it is not only convenient for holding,
It is relatively beneficial to hand to have an effect, so that the work that large dosage of needleless injector reaches " energy accumulating state " i.e. " state of loading " is especially light
It is laborsaving, it not only carries out, is completed with can be operated with one hand, flexibly and easily without extra means;Due to being realized for striker assembly
The circulation that " state of loading " provides power pulls component and is recycled work, while its function for also having both control striker assembly excitation
Can, so that large dosage of needleless injector reaches " energy accumulating state " and the operation of control excitation is very convenient, so that this large dosage nothing
Needle injection can be rapidly performed by repeatedly continuous injection, can be default by the cumulative realization of multiple micro-injection easily and fast
Large dosage of drug injection, overcome the deficiency that previous needleless injector is simply possible to use in drug dose injection, expanded needleless
Application range of the syringe in clinical injection field.In addition, its structure is simple, implement to be easy, element usage is high, cost of manufacture
It is cheap, it is also of great significance for the promotion and popularization of large dosage of needleless injector.
Terminal injecting assembly in clinical application, can be prepared into disposably by this large dosage needleless injector as needed
Using or be recycled for multiple times.When terminal injecting assembly is disposable, medical fluid can directly be pre-stored in terminal injecting assembly
In, injection orifice 12 is subjected to closure processing, terminal injecting assembly is whole in market circulation as the packaging of medical fluid;As terminal is infused
It penetrates component to be recycled for multiple times, then needs to take medicine to operate in view of terminal injecting assembly, injection orifice 12 be connected external
Conduit drives piston 37 to move backward can be realized and take medicine, this operation and the accessory used and pulling back push rod 27
Not rarely seen in existing needleless injector, so it will not be repeated.
Referring to shown in Fig. 7,8,9, in this large dosage needleless injector, hammer body 16 is located in bore 14 and only can axially move
It is dynamic to be relatively easy to realize, an axially extending guide groove 31 can be provided on the upper side wall of bore 14, and the upside of hammer body 16 is set
There is the guiding rib 29 being in sliding fit with the sliding chute, cooperates through guide groove 31 and guiding rib 29, make hammer body 16 only can axis in bore 14
To movement, without relatively rotating.
Referring to Fig. 3, shown in 4,5,6, in this large dosage needleless injector, it is contemplated that large dosage of needleless injector work
In, the dynamics that neck tube 9, thread head 11 and bore 14 need to bear is larger, therefore the intensity that gun barrel 5 needs to increase, in contrast, rifle
The dynamics that frame 8 needs to bear is smaller, if gun body is made of same material, certainly will have unreasonable place, for this purpose, in this hair
In bright, gun rack 8 is made of composite material, and gun barrel 5, neck tube 9 and thread head 11 are integrally formed and are made of metal material, rifle
The downside of pipe 5 handles through aperture and is connected to bore 14 with the driving chamber 13 of downside, can drive hammer body to recycle dragging component
16 move backward in bore 14.Thus one, it both ensure that large dosage of needleless injector had enough intensity, it can be steady for a long time
Fixed work, and the weight of large dosage of needleless injector is reduced to greatest extent, keep it light and handy convenient;Meanwhile gun body uses
The split type structure of gun barrel 5 and gun rack 8, also favorably with manufacture and reduce material cost.
Referring to shown in Figure 17,19,24, in the needleless injector clinical application of this large dosage, terminal injecting assembly needs are
Medical fluid provides biggish pressure just and the purpose of Needleless injection can be achieved, that is, requires 16 front end of hammer body and 27 rear end of push rod to occur fierce
Shock, in order to guarantee good impact effects of holding that 16 front end of hammer body and 27 rear end of push rod can be steady in a long-term, the hammer
16 front end of body and 27 tail end of push rod are respectively provided with a shock portion 39, the 39 one side hardness with higher of shock portion, to protect
Card hit moment complete, reduce elastic properties of materials in collision process on energy transmission bring influence, on the other hand its have compared with
High intensity extends working life, therefore shock portion 39 is made of high-intensitive, high rigidity material to improve its impact resistance energy.
Referring to Fig. 3, shown in 4, in this large dosage needleless injector, push type alarm 22 reaches in striker assembly to load
State Shi Erxiang operator issues warning, is triggering foundation with the position of 16 rear end of hammer body, this kind of in the prior art to press
Pressure type alarm 22 is relatively common, if push type alarm 22 controls working condition through a trigger switch 20, when hammer body 16 exists
When being moved rearwardly into 16 rear end of hammer body in bore 14 and supporting trigger switch 20, push type alarm 22 will be issued and be warned, and work as hammer body
16 when being excited and moving forward, and trigger switch 20 will automatically reset and push type alarm 22 is made to stop issuing warning.But in order to make
The internal structure of this large dosage needleless injector is more compact more compact with shape, and push type alarm 22 is preferentially using seperated
Formula design, i.e. the push type alarm 22 are made of the trigger switch 20 and alarm body being connected through conducting wire, and triggering is opened
20 rear sides for being fixed on bore 14 are closed, and alarm body is placed in inside the handle 6 of gun body.
Referring to Fig. 3, shown in 12,13, in this large dosage needleless injector, driving wheel 19 and a reversed back-stop mechanism cooperate
And can only rotate forward, it transmit the upside of transmission belt 24 can only from the front to the back and the transmission of irreversible row, which retouches aforementioned
Detailed elaboration is had been carried out in stating, and can easily realize this technical purpose in the prior art, such as can be used as follows
Design:
Referring to shown in Figure 11,12, the reversed back-stop mechanism is made of ratchet 36 and pawl 33;Ratchet 36 is located at actively
The side of wheel 19, the two is coaxial and relatively fixed, for proof strength and reduces cost of manufacture, ratchet 36 and driving wheel 19 use
Integrated design;Pawl 33 is then by providing support with the relatively-stationary shaft of gun body;Ratchet 36 only can be just under the cooperation of pawl 33
To rotation, and make with the relatively-stationary driving wheel 19 of ratchet 36 also only can positive direction rotate, realize transmission belt 24 upside only may be used
The technical purpose transmitted from the front to the back.
Furthermore, in this large dosage needleless injector, in order to ensure large dosage of needleless injector can stablize safety
Work, the gun body, striker assembly and terminal injecting assembly should have following relationship:
1. as shown in figure 15, when the drug in terminal injecting assembly is in specified maximum reserves, thread bush 2 and thread head
11 can be combined connection in the case where 27 tail end of push rod does not protrude into bore 14, and guarantee that terminal injecting assembly is combined with gun body
Securely, it thus one can guarantee that terminal injecting assembly can be combined in specified maximum reserves with gun body, and injection dosage can be carried out
Any adjusting, while combine terminal injecting assembly can when striker assembly is not in and loads state with gun body, improve
The portability of this large dosage needleless injector.
2. as shown in figure 16, when the rotation of thread bush 2 extremely reaches minimum distance with thread head 11 and piston 37 is located at medicine-storing tube 1
When front end, the tail end of push rod 27 is located exactly at the critical part of bore 14 Yu 9 inner cavity of neck tube, even if striker assembly works on,
Hammer body 16 can not also hit the tail end of push rod 27;Thus one, when on the one hand ensure that the work of this large dosage needleless injector, storage
Drug in cylindrantherae 1 can be completely injected, after on the other hand then ensure that the drug injection in medicine-storing tube 1, even if hitting
Hammer component works on, and the impact force generated will not damage terminal injecting assembly.
3. two elastic strings 17 are in non-stretching shape as shown in figure 17, when 16 front end of hammer body and 14 front end of bore are supported
State, thus come after guaranteeing that each hammer body 16 excites, elastic string 17 will not all generate the pulling force for preventing hammer body 16 from moving forward, to greatest extent
The kinetic energy possessed before colliding of raising hammer body 16;When injection dosage is set as maximum by adjustment terminal injecting assembly
When definite value, i.e., when the length that 27 tail end of push rod protrudes into bore 14 reaches maximum, if 16 front end of hammer body is contacted with 27 tail end of push rod,
Two elastic strings 17 are in unstretched condition, thus come guarantee hammer body 16 every time excitation and after being hit with push rod 27, no longer
Thrust is generated to push rod 27, it is ensured that the shock moment that hammer body 16 and push rod 27 occur completes, and medical fluid is by infusing after the completion of avoiding shock
Perforation 12 is to outward leakage.
Furthermore, referring to shown in Fig. 1,16, this large dosage needleless injector is in clinical application, in injection process,
After multiple micro-injection is the sum of cumulative reaches default injection dosage, 27 tail end of push rod exits bore 14 completely, even if continuing
Pulling trigger 7 makes striker assembly work on, and can not also carry out drug injection again, operation is safer, and injection dosage is more smart
It is quasi-.But the corresponding relationship that in actual operation, need to observe scale 10 at station location marker 3 and observation window 4 just can determine whether 27 tail of push rod
Whether end exits bore 14 completely, and such as not in time, it is extra still to carry out after drug injection reaches default injection dosage for observation
Operation certainly will be idle work, all unhelpful in patient in operator, and mode visually determines whether drug injection reaches pre-
If injection dosage, certain error can be generated, influences the accuracy of injection dosage, for this purpose, the present invention also has following improvement:
I.e. as shown in figure 18, the push type alarm 22 is connected with one second trigger switch 40, the second touching through conducting wire
Hair switch 40 is installed in the front side of bore 14, after the front end of hammer body 16 is supported with the front end face of bore 14, the second trigger switch
40 are pressed by 16 front end of hammer body and push type alarm 22 are promoted to issue warning, and thus one, when large dosage of needleless injector work
When making, after the front end face of 16 front end of hammer body and bore 14 is supported, 27 rear end of push rod is ejected bore 14 completely, i.e., complete
At the drug injection of preset dose, push type alarm 22 will be issued and be warned at this time, must not to prompt operator to no longer need to do
The operation wanted only need to pull trigger 7 after the completion of operator clearly injects again, move hammer body 16 slightly rearward and with the
Two trigger switch 40 are detached from, and push type alarm 22 will stop working.
Furthermore, referring to Fig. 3, shown in 12,13, in this large dosage needleless injector, the downside of hammer body 16 is equipped with
Towing mechanism 30, the towing mechanism 30 are used to move backward with fin block 18 is pulled with the cooperation of fin block 18 is pulled, and are based on this skill
Art purpose, towing mechanism 30 can be the convex block by extending downwardly on the downside of hammer body 16, but in view of this design has centainly not
Rationally place then pulls that the stability engaged therewith of fin block 18 is poor, and hammer body 16 is very if on the one hand convex block extends downwardly shorter
It is easy " cocking off ", if on the other hand convex block extends downwardly longer, then will certainly make to keep on the upside of hammer body 16 and transmission belt 24
Biggish spacing increases the shearing force for pulling fin block 18 and transmission belt 24, while being also unfavorable for reducing large dosage of Needleless injection
The overall volume of device, therefore in the present invention, following design can be used in towing mechanism 30:
I.e. as shown in Figure 7,8, the towing mechanism 30 is to pull slot, pulls the downside that slot is provided with hammer body 16, drags
The front end of hanging groove extends to the front end face of hammer body 16, and the rear end for pulling slot does not extend to the rear end of hammer body 16, thus makes to pull
Slot has a vertical rear end face;Pulling fin block 18 can move backward along the vallecular cavity for pulling slot, pull fin block 18 and move backward
Hammer body 16 can be driven to after supporting with the rear end face for pulling slot to move with it.
Furthermore, referring to shown in Figure 10-13, in this large dosage needleless injector, transmission belt 24 stablizes transmission
Be guarantee this large dosage needleless injector steady operation necessary factor, drive striker assembly realize load state during
24 stress of transmission belt is larger, by increasing the self-strength of transmission belt 24 and improving what driving wheel 19 and driven wheel 25 can be provided
Support force may be implemented its and stablize transmission, but enforcement difficulty is larger, and it is excessive and be detached from anticipation that transmission belt 24 is easy to top stress
Running track, for this purpose, the present invention also has following improvement:
One and the relatively-stationary leading truck 32 of gun rack 8 are equipped in the driving chamber 13, which is located at actively
Between wheel 19 and driven wheel 25, and upper surface is parallel with 24 upper inside walls of transmission belt respectively, abutting, thus guarantees transmission belt 24
Upside still can be kept predetermined direction to transmit backward by after pulling the resistance that fin block 18 applies, at the same time, due to leading truck 32
It is arranged in driving chamber 13, substantially increases the intensity of gun rack 8;The leading truck 32 can be integrally formed with gun rack 8, also can be single
It is fixedly connected through the modes such as screw or bonding with gun rack 8 after alone becoming type.
Furthermore, referring to Fig. 3, shown in 10,13, in this large dosage needleless injector, when pulling, fin block 18 is mobile
When to 19 surface of driving wheel, striker assembly reaches the state of loading just, can ensure that pull fin block 18 and towing mechanism 30 at this time
Keep stable and support state so that striker assembly can stable maintenance load state;Make transmission belt 24 when continuing cocking 7
When continuing transmission, the dragging fin block 18 cooperated with towing mechanism 30 will be moved with transmission belt 24 along 19 rear side profile of driving wheel
It is dynamic, and then be gradually detached from towing mechanism 30, so that hammer body 16 is excited.It can find in above process, pull fin block 18 and drag
During suspension mechanism 30 is detached from, pulls fin block 18 and drive hammer body 16 to move back with the displacement component after a horizontal direction
It is dynamic, it is however generally that, the trigger switch 20 of existing conventional push type alarm 22 all has certain stroke, but stroke is all
It is smaller, it is difficult to meet this one stroke that hammer body 16 moves backward in excitation process, such as needs special push type alarm 22,
The manufacturing cost of this large dosage needleless injector will obviously be improved, for this purpose, the present invention has following improve to hammer body 16:
I.e. as shown in figure 19,16 rear end of hammer body is equipped with a key seat 42, is equipped with the ejector pin to extend back in key seat 42
43, spring 41 is equipped on front side of ejector pin 43 and makes hammer body 16 and ejector pin 43 is whole can carry out elastic telescopic, and hammer body 16 and ejector pin 43 are same
Axis;The push switch of push type alarm 22 is located at the dead astern of ejector pin 43;When state is loaded in striker assembly realization, ejector pin 43
Rear end supports push switch just and push type alarm 22 is made to issue warning, pulls fin block 18 and 30 disengaging of towing mechanism
Before, which is in incomplete compressive state always.
Furthermore, it when the clinical application of this large dosage needleless injector, is realized in state procedure of loading in striker assembly,
Hammer body 16 moves backward the pulling force that need to overcome two elastic strings 17, this allows for circulation and pulls the biggish driving force of component offer, especially
Stabilization, the one-way transmission of its transmission belt 24 are basic key, therefore recycling dragging component also has following technical characteristic:
The transmission belt 24 uses synchromesh gear belt, and driving wheel 19 uses corresponding gear with follower;
Or the transmission belt 24 uses chain, driving wheel 19 uses corresponding sprocket wheel with follower;
Or the transmission belt 24 uses V-belt, driving wheel 19 uses corresponding groove profile belt wheel with follower;
As shown in Figure 10,11, the dragging fin block 18 is made of integrally formed fin seat 35 with fin 34, and the two is hung down
Directly, and fin 34 is located at the side of fin seat 35, and fin seat 35 is fixed in transmission belt 24 and can provide support for fin 34;Due to dragging
When dragging component operation, pulling fin block 18 need to be mobile with transmission belt 24, and is bent in the operation of transmission belt 24, therefore fin seat 35
Length in 24 transmission direction of transmission belt should be designed in conjunction with the diameter of driving wheel 19 and follower, guarantee that pulling fin block 18 exists
It is safe with the movement of transmission belt 24 by can still stablize when driving wheel 19 and follower.
Furthermore, referring to Fig. 3, shown in 4, this large dosage needleless injector needs hand-held progress in clinical use
Sequence of maneuvers is of great significance convenient for hand-held characteristic, and gun body and trigger component are constructed using gun-shaped, in order to make to recycle
It pulls component and this gun-shaped construction coincide, the driving wheel 19 is big compared with 25 diameter of driven wheel, and the track of transmission belt 24 is made to become
It is pre-small post-large in triangle, easily facilitate hand-held.
Furthermore, referring to Fig. 3, shown in 10-13, in this large dosage needleless injector, one-way driving mechanism 21 is set
It is placed between trigger 7 and driving wheel 19, will drive driving wheel 19 is positive to turn when trigger 7 is swung backward by one-way driving mechanism 21
It is dynamic, it is seen that 21 one side of one-way driving mechanism need to convert the swing of trigger 7 to the rotation of single direction, on the other hand then
The effect of power transmission is born, finally to drive driving wheel 19 to rotate forward, is based on the above technical purpose, one-way driving mechanism 21
Using existing pawl ratchet mechanism, driving member be can be realized in addition, and pawl ratchet mechanism only absorbs production when trigger 7 is swung backward
Raw driving force, and ratchet is made only to generate rotation when trigger 7 is swung backward, then ratchet carries out transmission and power by driving member
After the adjustment of square direction, driving wheel 19 is driven to rotate forward indirectly, link chain mechanism can be used in driving member, and working principle is as voluntarily
Vehicle driving method is similar, meanwhile, the common gear mechanism of machinery field can also be used in driving member.But in view of such as single-direction transmission machine
Structure 21 using the above structure, can make large dosage of needleless injector internal structure not compact enough, and volume is not small and exquisite enough, for this purpose, this
Invention has following improve to one-way driving mechanism 21:
I.e. as depicted in figs. 20-23, the one-way driving mechanism 21 is by a ratchet mechanism 48 and a set of planetary gear speed reducing mechanism
It constitutes;The ratchet mechanism 48 is arranged between main shaft 23 and trigger 7, can be as shown in figure 23, is provided on the side wall of main shaft 23
Ratchet 49, and pawl 50 is installed at the axis hole of trigger 7, pawl 50 and ratchet 49 cooperate, driving when swinging backward trigger 7 only
Main shaft 23 rotates;The planetary gear speed reducing mechanism is by 47, three planetary gears 46 of internal gear, 45 structure of central gear 44 and planet carrier
At internal gear 47 is fixed on the side of driving wheel 19, and driving wheel 19 is supported by main shaft 23 and the two can relatively rotate, central gear
44 are fixed on main shaft 23, and planet carrier 45 is relatively fixed with gun body and keeps the gear shaft position of three planetary gears 46 constant;It is described
Main shaft 23, driving wheel 19, internal gear 47, central gear 44 4 it is coaxial.Thus one, it will be driven when trigger 7 is swung backward
Central gear 44 rotates, and central gear 44 drives internal gear 47 to rotate through planetary gear 46, finally makes driving wheel 19 that positive turn occur
Dynamic, the present invention uses planetary gear speed reducing mechanism in one-way driving mechanism 21, and one side can play good slowing effect, make
Trigger 7 when pulling backward required dynamics be suitable for, rapid operation, on the other hand its play the role of torque direction adjustment, it is ensured that
When trigger 7 is swung backward, driving wheel 19 occur rotation be forward direction, in addition, this design so that one-way driving mechanism 21 more
It is compact, improve the property easy to use of large dosage of needleless injector.
Furthermore, referring to Fig. 3, shown in 4, in this large dosage needleless injector, the front end of push rod 27 and piston 37
Be fixedly connected, and rear end then according to injection dosage need and it is different degrees of protrude into bore 14, therefore push rod 27 need to have it is longer
Length, since the length of push rod 27 is longer and stress is larger in large dosage of needleless injector course of work, in order to avoid it
It bends and the accuracy of injection dosage is affected, it is contemplated that push rod 27 is made of high-strength material, but in this way
Requirement of the push rod 27 to making material is just improved, improves the cost of manufacture of large dosage of needleless injector, therefore the present invention is to pushing away
Bar 27 has further improve:
I.e. as shown in Figure 14,24, the push rod 27 is equipped with the guiding bolt 38 of one with its one, and the two is coaxial, and leads
Big compared with 27 diameter of push rod to bolt 38, after terminal injecting assembly is combined with gun body, guiding bolt 38 is located in neck tube 9, is oriented to bolt 38
Match the axial movement offer guiding combined into push rod 27 with 9 inner cavity of neck tube;Meanwhile the outer of guiding bolt 38 is arranged in station location marker 3
On wall, viewing location mark 3 and the corresponding relationship of the scale 10 at observation window 4 that thus can be more convenient, be injection dosage
It is default provide it is convenient.
Furthermore, referring to shown in Figure 24, in above-mentioned large dosage of needleless injector, the medicine-storing tube 1 is used
Transparent material, outer wall are labeled with dose scale 51, and the relative position by observation piston 37 and dose scale 51 is that can determine whether to store up
Medicament total amount in cylindrantherae 1.
Claims (8)
1. a kind of large dosage needleless injector, including terminal injecting assembly, terminal injecting assembly include the storage for being slidingly sealed cooperation
Cylindrantherae and piston, medicine-storing tube front end are equipped with injection orifice, are connected with push rod on rear side of piston;It is characterized by further comprising:
Gun body is made of the gun rack and gun barrel being fixedly connected;Cylindrical bore is equipped in gun barrel, the two sides of bore are respectively provided with
The front end of one side chamber communicated therewith, gun barrel is fixed with thread head through neck tube, and neck tube side wall is provided with observation window with a scale, neck tube
Inner cavity, thread head inner cavity and bore three are coaxial, and neck tube internal diameter is small compared with bore;The tail end of gun rack is held equipped with what is extended downwardly
The driving chamber for being equipped with the downside positioned at bore in gun rack and being communicated with bore;
Striker assembly is made of hammer body, elastic string and push type alarm;Hammer body is located in bore and is only axially movable,
The downside of hammer body is equipped with towing mechanism;Elastic string is equipped with two, is located at that two sides are intracavitary, and elastic string one end is connect with hammer body,
The other end is then connect with gun body;Push type alarm includes the trigger switch of control its work, and trigger switch is placed in bore
Rear side;When trigger switch is supported in the rear end of hammer body, push type alarm issues warning, and two elastic strings are in tensional state, this
When striker assembly be in and load state;It will quickly move forward after hammer body excitation and impact force is generated to front side member;
Circulation pulls component comprising a transmission belt, the driven wheel and driving wheel that transmission belt is arranged by front and back support and be located at and drive
Move intracavitary, and the upside of transmission belt is parallel with hammer body axis;Driving wheel cooperates with a reversed back-stop mechanism and can only rotate forward,
Making the upside of transmission belt can only transmit from the front to the back;It is installed in transmission belt there are two dragging fin block separately, when dragging fin block
When moving from the front to the back with transmission belt, which will cooperate with towing mechanism and hammer body is driven to move backward, when the dragging
When fin block is moved to right above driving wheel, striker assembly reaches the state of loading, when the dragging fin block moves down at driving wheel
When, pulling fin block will be detached from towing mechanism and excite hammer body;
Trigger component comprising trigger and one-way driving mechanism, trigger are located at the front side of handle and along main shaft swing, main shafts
Both ends be fixed on intracorporal two axle bed of rifle and limited, trigger drives lower end that can reset forward automatically by resetting-mechanism;It is unidirectional to pass
Motivation structure is set between trigger and driving wheel, and driving wheel forward direction will be driven to turn when trigger is swung backward by one-way driving mechanism
It is dynamic;
In the terminal injecting assembly, the rear end of medicine-storing tube is equipped with the thread bush cooperated with thread head, and push rod is equipped with position
Mark;After thread bush is combined with thread head, putting back-end passes through thread head and neck tube and enters in bore and can be hit by hammer body
It hits, push rod is adjusted by rotation thread bush and protrudes into the length in bore, can be sentenced by the scale on observation window with station location marker
Disconnected push rod protrudes into the length value in bore, i.e., clear injection dosage;
The push type alarm is connected with one second trigger switch through conducting wire, before the second trigger switch is installed in bore
Side, after the front end of hammer body and the front end face of bore are supported, the second trigger switch is pressed by hammer body front end and promotes push type report
Alert device issues warning, to prompt operator to have been completed the drug injection of preset dose.
2. a kind of large dosage of needleless injector according to claim 1, it is characterised in that:
The transmission belt uses synchromesh gear belt, and driving wheel uses corresponding gear with follower;
Or the transmission belt uses chain, driving wheel uses corresponding sprocket wheel with follower;
Or the transmission belt uses V-belt, driving wheel uses corresponding groove profile belt wheel with follower.
3. a kind of large dosage of needleless injector according to claim 1, it is characterised in that: the dragging fin block is by one
Molding fin seat and fin are constituted, and the two is vertical, and fin is located at the side of fin seat, and fin seat is fixed in transmission belt and can be fin
Portion provides support;The push type alarm uses split-type design, i.e., the push type alarm through conducting wire by being connected
Trigger switch and alarm body constitute, trigger switch is fixed on the rear side of bore, and alarm body is placed in gun body
Inside handle.
4. a kind of large dosage of needleless injector according to claim 1, it is characterised in that: on the upper side wall of the bore
It is provided with an axially extending guide groove, and the upside of hammer body is equipped with the guiding rib being in sliding fit with the sliding chute, through guide groove and guiding
Muscle cooperation, is axially movable hammer body only in bore, without relatively rotating.
5. a kind of large dosage of needleless injector according to claim 1, it is characterised in that: the gun rack uses composite wood
Material is made, and gun barrel, neck tube and thread head are integrally formed and are made of metal material, and the downside of gun barrel handles through aperture and makes rifle
Thorax is connected to the driving chamber of downside.
6. a kind of large dosage of needleless injector according to claim 1, it is characterised in that: the hammer body front end and push rod
Tail end is respectively provided with a shock portion, and the shock portion is made of high-intensitive, high rigidity material.
7. a kind of large dosage of needleless injector according to claim 1, it is characterised in that: the reversed back-stop mechanism by
Ratchet and pawl is constituted;Ratchet is located at the side of driving wheel, and the two is coaxial and relatively fixed, and ratchet is used with driving wheel and integrally set
Meter;Pawl is then by providing support with the relatively-stationary shaft of gun body;Ratchet can only rotate forward under the cooperation of pawl, and make with
The relatively-stationary driving wheel of ratchet also only can positive direction rotation.
8. a kind of large dosage of needleless injector according to claim 1, it is characterised in that: be equipped with one in the driving chamber
With the relatively-stationary leading truck of gun rack, the leading truck is between driving wheel and driven wheel, and upper surface is respectively and in transmission belt
Side inner wall is parallel, is close to.
Priority Applications (1)
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CN201910089729.3A CN109568726A (en) | 2016-11-05 | 2016-11-05 | Large dosage of needleless injector |
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CN201910089729.3A CN109568726A (en) | 2016-11-05 | 2016-11-05 | Large dosage of needleless injector |
CN201610967779.3A CN106334240B (en) | 2016-11-05 | 2016-11-05 | A kind of needleless injector |
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CN201610967779.3A Division CN106334240B (en) | 2016-11-05 | 2016-11-05 | A kind of needleless injector |
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CN201910089729.3A Withdrawn CN109568726A (en) | 2016-11-05 | 2016-11-05 | Large dosage of needleless injector |
CN201910089737.8A Withdrawn CN109568728A (en) | 2016-11-05 | 2016-11-05 | A kind of large dosage needleless injector |
CN201910089733.XA Withdrawn CN109568727A (en) | 2016-11-05 | 2016-11-05 | A kind of clinical medical needleless injector |
CN201910089732.5A Expired - Fee Related CN109621096B (en) | 2016-11-05 | 2016-11-05 | Medical needleless injector |
CN201910089740.XA Withdrawn CN109568730A (en) | 2016-11-05 | 2016-11-05 | Needleless injector |
CN201610967779.3A Active CN106334240B (en) | 2016-11-05 | 2016-11-05 | A kind of needleless injector |
CN201910089739.7A Withdrawn CN109568729A (en) | 2016-11-05 | 2016-11-05 | Medical needleless injector |
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---|---|---|---|
CN201910089737.8A Withdrawn CN109568728A (en) | 2016-11-05 | 2016-11-05 | A kind of large dosage needleless injector |
CN201910089733.XA Withdrawn CN109568727A (en) | 2016-11-05 | 2016-11-05 | A kind of clinical medical needleless injector |
CN201910089732.5A Expired - Fee Related CN109621096B (en) | 2016-11-05 | 2016-11-05 | Medical needleless injector |
CN201910089740.XA Withdrawn CN109568730A (en) | 2016-11-05 | 2016-11-05 | Needleless injector |
CN201610967779.3A Active CN106334240B (en) | 2016-11-05 | 2016-11-05 | A kind of needleless injector |
CN201910089739.7A Withdrawn CN109568729A (en) | 2016-11-05 | 2016-11-05 | Medical needleless injector |
Country Status (1)
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CN (7) | CN109568726A (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021168580A1 (en) * | 2020-02-27 | 2021-09-02 | Idee International R&D Inc. | Adjustable dose needleless injector |
Families Citing this family (11)
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CN109966592A (en) * | 2017-02-04 | 2019-07-05 | 王才丰 | A kind of large dosage of needleless injector that can independently take medicine |
CN110680654B (en) * | 2019-11-26 | 2020-12-08 | 河南医学高等专科学校 | Multi-functional nursing shallow |
CN111282088B (en) * | 2020-03-01 | 2021-09-03 | 杭州丽脂医疗科技有限公司和兴路医疗美容门诊部 | Accurate autologous fat filling device capable of finely adjusting and quantifying |
CN111419243B (en) * | 2020-04-21 | 2021-11-16 | 苏州施莱医疗器械有限公司 | Blood sampling pen capable of loading and adjusting depth by using tail handle |
CN112023185B (en) * | 2020-09-25 | 2022-09-06 | 宁波睿爱产品设计有限公司 | Injection device with sound prompt function |
CN112604067B (en) * | 2020-12-07 | 2022-08-05 | 湖南慧泽生物医药科技有限公司 | Cassette bottle injection box and methotrexate injection packaged by same |
CN113274588B (en) * | 2021-05-19 | 2022-08-26 | 青岛瑞斯凯尔生物科技有限公司 | Portable antigen needleless injector and working method thereof |
CN113440417B (en) * | 2021-07-09 | 2022-06-24 | 深圳市人民医院 | Liquid food feeding device for diagnosis and treatment nursing of critically ill neonate |
CN114129827B (en) * | 2021-11-30 | 2024-01-19 | 苏州和林微纳科技股份有限公司 | Vertical injection mechanism of needleless injector |
CN115317057A (en) * | 2022-08-25 | 2022-11-11 | 上海玄宇医疗器械有限公司 | Blood vessel closure glue conveying device |
CN116726316B (en) * | 2023-05-31 | 2024-05-17 | 上海新耀湃科医疗科技股份有限公司 | Quantitative injection pen and use method thereof |
Family Cites Families (9)
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US3057349A (en) * | 1959-12-14 | 1962-10-09 | Ismach Aaron | Multi-dose jet injection device |
AU2002336381A1 (en) * | 2002-08-26 | 2004-03-11 | Penjet Corporation | Apparatus for needle-less injection with a degassed fluid |
CN202113432U (en) * | 2011-05-05 | 2012-01-18 | 鲍文 | Needleless syringe for department of paediatrics |
US9408972B2 (en) * | 2011-08-02 | 2016-08-09 | Pharmajet, Inc. | Needle-free injection device |
CN103495241A (en) * | 2013-10-12 | 2014-01-08 | 北京快舒尔医疗技术有限公司 | Needleless injector with impacting function |
CN103977480B (en) * | 2014-05-14 | 2016-06-15 | 苏州大学张家港工业技术研究院 | A kind of manually driven energy-storage type needleless injector |
KR20160075907A (en) * | 2014-12-19 | 2016-06-30 | 한국생산기술연구원 | Drug Infusion Device Having Sliding Mount Unit |
CN204765770U (en) * | 2015-05-29 | 2015-11-18 | 嵊州领航信息科技有限公司 | Muscle nail of area nail rifle |
CN105498045A (en) * | 2016-01-13 | 2016-04-20 | 北京步腾医学科技有限公司 | Needle-free spring injector |
-
2016
- 2016-11-05 CN CN201910089729.3A patent/CN109568726A/en not_active Withdrawn
- 2016-11-05 CN CN201910089737.8A patent/CN109568728A/en not_active Withdrawn
- 2016-11-05 CN CN201910089733.XA patent/CN109568727A/en not_active Withdrawn
- 2016-11-05 CN CN201910089732.5A patent/CN109621096B/en not_active Expired - Fee Related
- 2016-11-05 CN CN201910089740.XA patent/CN109568730A/en not_active Withdrawn
- 2016-11-05 CN CN201610967779.3A patent/CN106334240B/en active Active
- 2016-11-05 CN CN201910089739.7A patent/CN109568729A/en not_active Withdrawn
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2021168580A1 (en) * | 2020-02-27 | 2021-09-02 | Idee International R&D Inc. | Adjustable dose needleless injector |
Also Published As
Publication number | Publication date |
---|---|
CN109568728A (en) | 2019-04-05 |
CN109621096B (en) | 2020-05-12 |
CN106334240B (en) | 2019-05-21 |
CN109621096A (en) | 2019-04-16 |
CN109568727A (en) | 2019-04-05 |
CN109568730A (en) | 2019-04-05 |
CN106334240A (en) | 2017-01-18 |
CN109568729A (en) | 2019-04-05 |
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Application publication date: 20190405 |